1. KEY PERSONNEL Dr. Bob Schutz, GLAS Science Team Leader Dr. Jay Zwally, ICESat Project Scientist, GLAS Team Member Mr. David Hancock, Science Software Development Manager Ms. Anita Brenner, Deputy Science Software Development Manager ICESAT/GLAS SCIENCE SOFTWARE DEVELOPMENT

2. BOARD MEMBERS

3. ICESAT/GLAS SCIENCE SOFTWARE DEVELOPMENT Team Members (Carol update, )

4. GLAS STANDARD DATA SOFTWARE DEFINITIONS The GLAS Standard Data Software (SDS) is the system which provides data processing and mission support for the GLAS Investigation. The SDS is composed of the ICESat Science Investigator-led Processing System (I-SIPS) and the Instrument Support Terminal (IST) Software. The I-SIPS includes the software and operations which produce the GLAS standard data products and their metadata. The IST Software includes the GLAS instrument health assessment, instrument commanding, and other functions required for mission support.

5. CDR PURPOSE To present the I-SIPS design and implementation to a level that demonstrate that the requirements are being met to produce the standard data products in routine production. To allow suggested improvements in implementation To identify any omissions Not intended to address the scientific aspects of the Algorithm Theoretical Basis Documents Not intended to address the IST

6. SCIENCE TEAM UPDATES Dr. Robert E. Schutz GLAS Science Team Leader Center for Space Research Suite 200 3925 W. Braker Lane Austin, TX 78759-5321 email: schutz@utcsr.ae.utexas.edu phone: (512) 471-4267 fax: (512) 471-3570

7. INSTRUMENT DESCRIPTION UPDATES Ronald B. Follas GLAS Instrument Manager Science Systems Applications, Inc. NASA/Goddard Space Flight Center Mail Stop 924.0 Greenbelt, MD 20771 email: follas@pop900.gsfc.nasa.gov phone: (301) 286-6609 fax: (301) 286-0213

8. I-SIPS SOFTWARE DESCRIPTION/REQUIREMENTS David W. Hancock III NASA/GSFC Wallops Flight Facility Bldg. N159, Room E218 Wallops Island, VA 23337 email: hancock@osb.wff.nasa.gov phone: (757) 824-1238 fax: (757) 824-1036

9. CDR CONTENTS Present system description and requirements Present implementation design Present detailed work in progress

10. STATUS Under Change Control –Requirements –Architectural design –Detailed design Version 0 Delivered Version 2 Implementation in progress

11. I-SIPS SOFTWARE DEVELOPMENT DESCRIPTION Precision orbit and precision attitude software development at University of Texas at Austin (Ancillary process) Standard Data Software are being coded at GSFC under Science Team direction –Based on ATBDs –Standard Data Software implemented by one set of developers –Standard Data Software under configuration management (use ClearCase) –Deliver software to operations team –Software designed to handle processing, partial processing, and reprocessing –Final Level 2 products in HDF-EOS, others in HDF

12. I-SIPS SOFTWARE DEVELOPMENT LIFE CYCLE Requirements Phase –Concept and Initiation –Requirements Development Design Phase –Prototyping –Architectural Design –Detailed Design Implementation and Testing Phase –Implementation/Coordination –Integration and Test Acceptance and Delivery Phase –Acceptance –Delivery Sustaining Engineering and Operations Phase –Operations –Maintenance

13. I-SIPS DOCUMENTATION TREE

14. CURRENT DOCUMENTS PROVIDED ON http://glas.wff.nasa.gov GLAS Science Software Management Plan GLAS Data Management Plan GLAS Science Software Requirements Document GLAS Level 0 Instrument Data Product Specification GLAS Standard Data Products Specification - Level 1 GLAS Standard Data Products Specification - Level 2 GLAS I-SIPS Software Architectural Design Document GLAS Science Computing Facility (SCF) Plan ICDs

15. I-SIPS BASIC DESCRIPTION Performs: The I-SIPS processing performs the following functions: –ingest input data –execute algorithms to create the GLAS level 1 and 2 data products –assess data product for quality and content, and produce metadata –create processing reports/log –deliver data products to the NSIDC DAAC Perform reprocessing as required Create quick-look data for science team Does Not Perform: All Level 3 and 4 GLAS data products are produced by the science team as special products

16. I-SIPS PROCESSING BASIC REQUIREMENTS Process 24 hours of GLAS instrument data into standard data products within 4 hours of receipt of all required inputs Ability to distribute to the Science Team Level 1 and Level 2 data products within 24 hours of receipt of Level 0 data (uses predict ancillary data) Distribute fully processed Level 1 and Level 2 data products to NSIDC within 14 days of receipt of Level 0 data (after becoming operational and assuming proper funding) Support reprocessing requirements without delaying regular processing assuming proper funding

17. I-SIPS DATA ARCHIVING REQUIREMENTS Archives internal data products for internal I-SIPS use, to End-of- Mission I-SIPS archives a log of products delivered I-SIPS does not perform permanent archive

18. I-SIPS ARCHITECTURAL DIAGRAM ( Carol, Peggy has new one)

19. I-SIPS Major Subsystems Schedule and Data Management Subsystem (SDMS)- Processing environment to control job flow, data distribution, and archiving Standard Science Software Subsystem? (xx) - Executive for creating products and the software that implements the ATBD Utility Subsystem- QA, HDF-EOS product creation, job creation, production history

20. GLAS DATA PRODUCTS

21. PDR Concerns I-SIPS Functionality Processing Concept DAAC Interface Concept I-SIPS Science Team Interface

22. I-SIPS Functionality PDR Concern

23. I-SIPS Functionality CDR Response Hardware has been selected and will be presented in CDR Network Loads have been estimated and appear reasonable Subsytem SDMS will address opertion and data management Data volumes and processing loads will be presented Development effort is being actively tracked in Project and appears to be with in time and resource budget.

24. Processing Concept PDR Concern The board is concerned about the architecture of the production software. The board recommends that the I-SIPS consider implementation of independently linked and scheduled production steps coupled with smaller granule size to reduce program complexity and interdependence while introducing natural "check points". CDR needs to address format and content of EOS Standard Products.

25. Processing Concept CDR Response Team did performance study of the executive and did not find problems. Continued with design, but have determine easy to divide into small processes if needed. Job breakdown will be presented. EOS Standard Products are being defined. ECS and NSIDC are actively involved. Several ESDT are submitted.

26. DAAC Interface Concept PDR Concern The I-SIPS team needs to be actively involved with the DAAC in discussion of scenarios and validation of assumptions leading to an operations agreement. Choice to do distribution by media should be examined.

27. DAAC Interface Concept CDR Response NSIDC is actively involved in product definition, distribution, and search design Products will be distributed electronically by standard SIPS interface. NSIDC pull data from I-SIPS.

28. I-SIPS Science Team Interface PDR Concern –Need to develop QA scenarios and plans. CDR Response –I-SIPS to SCF interface in desgin –QA types defined but specific implementation will be version 2.

29. Data Product Volumes ( may need update so place holder now)

30. Network Loading (year 1)( Place holder sheet needs to be fixed)